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KCNE1 敲除小鼠的肾脏缺陷可被体内的 chromanol 293B 模拟:鉴定近端肾小管中受 KCNE1 调节的钾电流。

Renal defects in KCNE1 knockout mice are mimicked by chromanol 293B in vivo: identification of a KCNE1-regulated K+ conductance in the proximal tubule.

机构信息

Department of Biomedical Science, University of Sheffield, Sheffield S10 2TN, UK.

出版信息

J Physiol. 2011 Jul 15;589(Pt 14):3595-609. doi: 10.1113/jphysiol.2011.209155. Epub 2011 May 16.

DOI:10.1113/jphysiol.2011.209155
PMID:21576273
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3167120/
Abstract

KCNE1 is a protein of low molecular mass that is known to regulate the chromanol 293B and clofilium-sensitive K+ channel, KCNQ1, in a number of tissues. Previous work on the kidney of KCNE1 and KCNQ1 knockout mice has revealed that these animals have different renal phenotypes, suggesting that KCNE1 may not regulate KCNQ1 in the renal system. In the current study, in vivo clearance approaches and whole cell voltage-clamp recordings from isolated renal proximal tubules were used to examine the physiological role of KCNE1. Data from wild-type mice were compared to those from KCNE1 knockout mice. In clearance studies the KCNE1 knockout mice had an increased fractional excretion of Na+, Cl−, HCO3(−) and water. This profile was mimicked in wild-type mice by infusion of chromanol 293B, while chromanol was without effect in KCNE1 knockout animals. Clofilium also increased the fractional excretion of Na+, Cl− and water, but this was observed in both wild-type and knockout mice, suggesting that KCNE1 was regulating a chromanol-sensitive but clofilium-insensitive pathway. In whole cell voltage clamp recordings from proximal tubules, a chromanol-sensitive, K+-selective conductance was identified that was absent in tubules from knockout animals. The properties of this conductance were not consistent with its being mediated by KCNQ1, suggesting that KCNE1 regulates another K+ channel in the renal proximal tubule. Taken together these data suggest that KCNE1 regulates a K+-selective conductance in the renal proximal tubule that plays a relatively minor role in driving the transport of Na+, Cl− and HCO3(−).

摘要

KCNE1 是一种低分子量的蛋白质,已知它可以调节多种组织中的 chromanol 293B 和 clofilium 敏感的 K+ 通道 KCNQ1。先前对 KCNE1 和 KCNQ1 敲除小鼠肾脏的研究表明,这些动物具有不同的肾脏表型,这表明 KCNE1 可能不在肾脏系统中调节 KCNQ1。在本研究中,采用体内清除方法和分离的肾近端小管的全细胞膜片钳记录技术,研究 KCNE1 的生理作用。将野生型小鼠的数据与 KCNE1 敲除小鼠的数据进行比较。在清除研究中,KCNE1 敲除小鼠的 Na+、Cl−、HCO3−和水的分数排泄增加。这种表型在野生型小鼠中被 chromanol 293B 模拟,而 chromanol 在 KCNE1 敲除动物中没有作用。Clofilium 也增加了 Na+、Cl−和水的分数排泄,但这在野生型和敲除小鼠中均观察到,这表明 KCNE1 调节 chromanol 敏感但 clofilium 不敏感的途径。在近端小管的全细胞膜片钳记录中,鉴定出一种 chromanol 敏感的 K+-选择性电导,在敲除动物的小管中不存在。这种电导的特性与由 KCNQ1 介导的特性不一致,这表明 KCNE1 调节肾脏近端小管中的另一种 K+ 通道。综合这些数据表明,KCNE1 调节肾脏近端小管中的一种 K+-选择性电导,该电导在驱动 Na+、Cl−和 HCO3−的转运中起着相对较小的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fc16/3167120/5a53959f19f3/tjp0589-3595-f7.jpg
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本文引用的文献

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Enhanced insulin sensitivity of gene-targeted mice lacking functional KCNQ1.缺乏功能性KCNQ1的基因靶向小鼠胰岛素敏感性增强。
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pH敏感的背景K2P和Kir钾离子转运通道的结构、门控及生理学的分子层面
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Chromanol 293B, an inhibitor of KCNQ1 channels, enhances glucose-stimulated insulin secretion and increases glucagon-like peptide-1 level in mice.色满醇293B,一种KCNQ1通道抑制剂,可增强小鼠葡萄糖刺激的胰岛素分泌并提高胰高血糖素样肽-1水平。
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